UC Irvine's OpenCourseWare (OCW) "Open Chemistry" Initiative is to provide Chemistry faculty at universities and colleges worldwide with open access to UC Irvine's top faculty teaching the complete Chemistry core curriculum (core courses and electives) required for a four-year undergraduate degree in Chemistry. UC Irvine's initiative makes use of Creative Commons and Open Educational Resources so that it can be modified by other Chemistry professors for use in their classroom.

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The ChemWiki is a collaborative approach toward chemistry education where an Open Access textbook environment is constantly...
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The ChemWiki is a collaborative approach toward chemistry education where an Open Access textbook environment is constantly being written and re-written by students and faculty members resulting in a free Chemistry textbook to supplant conventional paper-based books. The development of the ChemWiki is currently directed by UC Davis Professor Delmar Larsen.The ChemWiki is a principal hub of the UC Davis STEMWiki Hyperlibrary, which is a multi-institutional collaborative venture to develop the next generation of open-access E-texts to improve STEM education (Science, Technology, Engineering, and Mathematics) at all levels of higher learning. Other STEMWikis include the BioWiki, the GeoWiki, theStatWiki, the PhysWiki and the MathWiki.

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This course aims to connect the principles, concepts, and laws/postulates of classical and statistical thermodynamics to...
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This course aims to connect the principles, concepts, and laws/postulates of classical and statistical thermodynamics to applications that require quantitative knowledge of thermodynamic properties from a macroscopic to a molecular level. It covers their basic postulates of classical thermodynamics and their application to transient open and closed systems, criteria of stability and equilibria, as well as constitutive property models of pure materials and mixtures emphasizing molecular-level effects using the formalism of statistical mechanics. Phase and chemical equilibria of multicomponent systems are covered. Applications are emphasized through extensive problem work relating to practical cases.

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This course covers the following questions. What are the predominant heat producing elements of the Earth? Where and how much...
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This course covers the following questions. What are the predominant heat producing elements of the Earth? Where and how much are they? Are they present in the core of the Earth? Detection of antineutrinos generated in the Earth provides: 1) information on the sources of the terrestrial heat, 2) direct test of the Bulk Silicate Earth (BSE) model and 3) testing of non-conventional models of Earth's core. Use of antineutrinos to probe the deep interior of our planet is becoming practical due to recent fundamental advances in the antineutrino detectors.

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Select this link to open drop down to add material 12.091 Basics of Analysis with Antineutrinos from Heat Producing Elements - K, U, Th in the Earth (MIT) to your Bookmark Collection or Course ePortfolio

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The emphasis of this course is to use Trace Element Geochemistry to understand the origin and evolution of igneous rocks. The...
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The emphasis of this course is to use Trace Element Geochemistry to understand the origin and evolution of igneous rocks. The approach is to discuss the parameters that control partitioning of trace elements between phases and to develop models for the partitioning of trace elements between phases in igneous systems, especially between minerals and melt. Subsequently, published papers that are examples of utilizing Trace Element Geochemistry are read and discussed.

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Select this link to open drop down to add material 12.479 Trace-Element Geochemistry (MIT) to your Bookmark Collection or Course ePortfolio

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This is a free textbook offered by BookBoon. This is the second book in the series.'This book is likely to find strong...
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This is a free textbook offered by BookBoon. This is the second book in the series.'This book is likely to find strong appeal among hard-core analytical chemists. Although it is not a textbook, it will appeal to chemistry and environmental faculty and students. It is rich in its presentation of first principles as it methodically illustrates the use of Maple for solving problems in the context of analytical chemistry. Those who wish to understand the issues of incomplete reaction and the difference between an equivalence point and an endpoint should be especially pleased. Some who are less comfortable with computer algebra might be reluctant to embrace this approach, at first, but they will find that they come up to speed quickly because the instruction presumes no prior knowledge of Maple. Yet, within two chapters the reader is calculating and graphically illustrating important points.

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HPLC Simulator is a web-based high-performance liquid chromatography simulation. Adjust a range of experimental parameters...
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HPLC Simulator is a web-based high-performance liquid chromatography simulation. Adjust a range of experimental parameters and see their affect on chromatographic parameters including retention time, column efficiency, and backpressure.

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